Back-Scattering in Quasi Ballistic NanoMOSFETs: The role of non thermal carrier distributions

Author

Clerc, R. ; Palestri, P. ; Selmi, L. ; Ghibaudo, G.

Author_Institution

IMEP LAHC, Minatec-INPG, Grenoble

fYear

2008

fDate

12-14 March 2008

Firstpage

125

Lastpage

128

Abstract

In this work, the kT layer theory for quasi ballistic transport in nanodevices has been reinvestigated, underlying the impact of carrier heating on backscattering. Assuming a constant mean free path, a differential equation for the currents fluxes has been derived, including both the impact of collision and field on backscattering. By making proper approximations on the impact of heating on carrier distribution functions, the backscattering coefficient and velocity profiles have been re-derived, and successfully compared to Monte Carlo simulations of template potential profiles. These results open new perspectives in the development of new physically based compact models for MOSFETs, better accounting for non equilibrium transport effects.

Keywords

MOSFET; Monte Carlo methods; differential equations; nanotechnology; Monte Carlo simulations; backscattering coefficient; carrier distribution functions; carrier heating; constant mean free path; differential equation; equilibrium transport effects; nonthermal carrier distributions; quasiballistic nanoMOSFET; quasiballistic transport; velocity profiles; Analytical models; Backscatter; Boltzmann equation; Distribution functions; MOSFETs; Monte Carlo methods; Scattering; Shape; Silicon;

fLanguage

English

Publisher

ieee

Conference_Titel

Ultimate Integration of Silicon, 2008. ULIS 2008. 9th International Conference on

Conference_Location

Udine

Print_ISBN

978-1-4244-1729-2

Electronic_ISBN

978-1-4244-1730-8

Type

conf

DOI

10.1109/ULIS.2008.4527155

Filename

4527155